Place a raw egg in a glass of water and observe. Then add lots of salt to the water
and dissolve it. Place the same egg in the glass of salty water.

The egg is denser than fresh water and should sink. When placed in salty water, it
should float because the egg is less dense than salt water. Salty water gives the egg more
buoyancy. Ships in the ocean also ride higher in the salt water than in fresher river
water when they come into port.

Is Diet Softdrink Light

You will need a sink filled nearly to the top with water, a can of Diet softdrink
and a can of regular softdrink.

Put both cans of softdrink into the sink filled with water. Which one floats higher in
the water than the other?

Because the regular softdrink contains a lot of sugar, it will probably sink.
However, the sweetener in the Diet softdrink (possibly aspartane) is only in very small
amounts because it has 200 times the sweetness of ordinary sugar. The Diet softdrink will
float higher in the sink.

Lava Lamp

You will need a clear jar, oil, salt and water.

Half-fill the clear jar with water. Pour a generous amount of oil on top (about 1 cm).
Now sprinkle a generous amount of salt on top of the oil and watch.

The salt will become coated with oil and will sink because the combination is
denser. Then as the oil separates from the salt, the oil will float back up again as oil
alone is less dense than water.

Floating Fruit

Safety Rules:

Parent supervision

Take care with a knife

Materials you need are:

an orange with a thick peel

a knife

a container of water

Before peeling the orange, put it in water. It should float. Now peel the orange and
observe if the peeled orange and the separate peel float or sink. The peeled orange should
sink, and the peel should float.

Because the peel is less dense than water, both the peel alone and the unpeeled
orange float. However, the peeled orange is more dense than water and sinks.

Do Hot and Cold Water Mix

Safety Rules:

Parent supervision

Take care with fire or heat

Materials you need are:

2 containers with the same-sized openings

hot water

cold water with icecubes

2 sheets of waxed paper

red and blue food colouring

a sink

a friend or a parent

gloves

Completely fill to the brim one container with cold water and add a few drops of blue
food colouring. Cover it with waxed paper. Also fill to the brim the second container with
hot water and add a few drops of red food colouring. Cover it with waxed paper. Now comes
the tricky part. With help from your parent, turn the covered hot water container
upside-down to fit exactly over the top of the cold water container. Remove both waxed
paper sheets and observe any colour mixing.

If you've done this tricky experiment properly, the hot and cold waters should not
mix. Cold water is denser than hot water which is lighter, so the coldwater should stay at
the bottom and the hot water should stay at the top.

Popping Straws

You will need a few drinking straws and a friend. You also may need to practise a
few times for this to work.

Twist the ends of one drinking straw tightly but in different directions so that you
trap air in the straw. Keep twisting until you can't any more. Get your friend to flick
the middle of the inflated straw with one hard flick. It should burst loudly.

By twisting the air inside the straw into a smaller volume, you have increased the
pressure. Only a small amount of force will be needed to burst the straw.

Fascinating Funnel

You will need a funnel and a ping-pong ball. Place the ball in the funnel and hold
it in place with your hand. Turn the whole lot upside down and blow through the small
spout of the funnel. While blowing, remove your hand.

The ball should stay suspended inside the funnel. This demonstrates Bernoulli's
Principle about air pressure. As the air is blown down the spout, it comes to the cone of
the funnel. The air spreads out into the larger area and the pressure drops. This creates
a lower air pressure which 'sucks' the ball in the cone, and the outside air is of a
higher pressure and 'pushes' the ball into the cone.

Magic Ping-pong Ball

You will need one ping-pong ball, a piece of cotton thread (about 75cm long) and a
water tap.

Tie the thread around the ball. Turn on the water tap. Suspend the ball close to but
not touching the water, and watch.

The ball should be drawn towards the water while the tap is running. The stream of
water carries with it some of the surrounding air. When the ball is brought close enough,
the moving air on the tap side produces a low air pressure zone, while on the other side
of the ball, the air pressure is higher. This causes the ball to be 'sucked' towards the
water.

Magic Straws

You will need 2 drinking straws, sticky tape and a glass of water.

Fill a glass of water. Place the drinking straws at right angles to each other and hold
them with a small piece of sticky tape. Put one end of one drinking straw in your mouth
and the other end of the other drinking straw in the glass of water. Blow hard.

For this to work, the straws must be at exactly 90 degrees. Using the Bernoulli
Principle, as you blow through the top straw, the air pressure is reduced just above the
open end of the bottom straw.

Make a Curved Wing

Hold a strip of paper (about 20 cm long and about 5 cm wide) just below your lips.
Blow over the top of the paper. What happens?

The strip of paper is like the wing of an aircraft. As air is blown over the top of
the paper strip at a faster speed than the air moving beneath it, this creates a lower
pressure above the wing than beneath it. This creates 'lift' and the paper strip should
rise up. The faster you blow, the more lift there is.

Egg in a Bottle

Safety Rules:

Parent supervision

Take care with fire or heat

Materials you need are:

a peeled soft-boiled egg

a glass bottle with an opening slightly smaller than the peeled egg

a piece of rolled-up paper

matches

Light the rolled up piece of paper and throw it into the bottle. After the paper has
been burning for a few seconds, place the peeled soft-boiled egg into the neck of the
bottle (sharp pointed end downwards).

The egg should be 'sucked' into the bottle. The burning paper uses up some of the
oxygen in the bottle so there is less air in the bottle. This causes less air pressure in
the bottle compared with the outside air so the egg is 'sucked' into the bottle.

Cartesian Diver

Materials you need are:

a large clear jar with a fairly wide opening

a balloon (the round type) or a sheet of rubber and a strong elastic band

a sweets wrapper that just barely floats in water to be the 'diver'

Fill the jar to the brim with water. Put the sweets wrapper into the jar. Cover the
opening tightly with a balloon. Press on the balloon and the 'diver' (the sweets wrapper)
should sink. When you take your hand away and release the pressure, the 'diver' should
rise up again.

As you press down on the rubber sheet, the pressure inside the container increases
and the 'diver' is forced downward. Try other 'divers' such as small screwtop vials with
small amounts of water.

Poke a Potato with a Straw

You will need a potato and a drinking straw.

Hold the straw and put your finger over one end to make it airtight. Punch the other
end into the potato. It should pierce through the skin.

By covering one end of the straw, you have trapped some air in the straw. When punch
into the potato, this air provides sufficient pressure to drive the straw through the
skin.

Make a Sucker out of Someone

Safety Rules:

Parent supervision

Take care with a knife

Materials you need are:

a clear jar with a lid that fits tightly

a drinking straw

a sharp knife

plasticine or Blu-tak

water

Fill the jar with water. Cut a hole in the lid just large enough to fit the straw
through. Put the straw through and seal it with plasticine so that it is completely
airtight. Ask a friend to suck the water through the straw.

Normally as you suck through a straw, you reduce the air pressure inside your mouth
and it will be less than the air pressure in the room. This allows the water in a glass to
be moved the straw into your mouth.

However, by sealing the lid, no air from the room can force the water up the straw into
your friend's mouth. No matter how hard your friend tries, he/she will not be able to suck
the water.

Make a Siphon

Materials you need are:

a sink nearly full of water

2 large clear jars that can fit into the sink

a length of plastic tubing

Fill the two large jars with water. Hold some plastic tubing under water until it is
completely filled with water. Put your fingers tightly over both ends of the tubing. Then
one end under water into each of the jars. Lift one jar up above the other. Water should
flow from one jar into the other.

The water is being siphoned by air pressure and gravity from one jar to the other.

Water Pressure at Different Depths

Safety rules:

Parent supervision

Take care with hammer and nails

Materials you need are:

an old tin

a hammer

a nail

water

Hammer 3 holes above one another into the side of the tin. Fill it with water and
observe the water jets.

The greatest water jet is at from the bottom hole where the water pressure due to
the weight of water above is the greatest. The top hole has the weakest water jet.

Plasticine Boat

You will need lots of plasticine, a large container of water and some small rocks
as weights.

Your task is to make a boat out of plasticine that will carry as much weight as
possible without sinking. Try different shapes for the hull.